JP2020112987A - Wireless tag reader and program - Google Patents

Abstract

To provide a wireless tag reader and a program capable of preventing misreading even when adjacent lanes are close to each other.SOLUTION: The wireless tag reader includes: a first storage unit that stores a piece of first tag information constituted of multiple bits, which is stored in the wireless tag and received from the wireless tag; a second storage unit that stores a piece of second tag information which is constituted of all bits after a particular bit in the first tag information received from the wireless tag; and a tag information determination unit that determines the first tag information as effective tag information when a piece of first data in a particular area after a particular bit included in the first tag information matches with a piece of second data in the particular area included in the second tag information.SELECTED DRAWING: Figure 9

Description

Embodiments of the present invention relate to a wireless tag reader and a program.

Recently, in stores such as mass-market stores, supermarkets, and convenience stores, RFID tags (Radio Frequency Identifier) that store tag information related to the item are attached to the item, and the tag information transmitted from the RFID tag is sent. There is used a wireless tag reading device that reads a product to specify a product. Such a wireless tag reading device transmits a radio wave including a command to the radio tag, and the radio tag receiving the radio wave transmits tag information about the product stored in itself. The wireless tag reading device receives the tag information transmitted from the wireless tag.

This RFID tag reading device may be provided in a lane together with a POS (Point of Sales) terminal that performs sales registration processing of a product sold at a store. Therefore, in the RFID tag reading system in which a plurality of lanes are arranged in the store, the RFID tag reading device is also installed in each lane. When the adjacent lanes are installed close to each other, the respective RFID tag readers are also installed close to each other.

By the way, when the adjacent lanes are close to each other, the radio waves transmitted from the RFID tag reader reach the RFID tags attached to the products placed on the own lane, but are placed on the adjacent lane. The output is adjusted so that it does not reach the RFID tag attached to the product. However, the tag information sent from the wireless tag has the property of reaching a wider area than the radio waves sent from the wireless tag reader, so the tag information sent from the wireless tag attached to the product placed in the adjacent lane. There is a possibility that the RFID tag reader in its own lane may also receive the information. When the wireless tag reader receives the tag information of the product in the adjacent lane, it leads to misreading.

The problem to be solved by the present invention is to provide a wireless tag reading device and a program in which misreading does not occur even if adjacent lanes are close to each other.

The wireless tag reading device according to the embodiment includes a first storage unit that stores first tag information that is received from the wireless tag and that is configured by a plurality of bits and that is stored in the wireless tag; and the first tag information that is received from the wireless tag. A second storage section for storing second tag information composed of all bits after a specific bit of the first bit, and first data of a predetermined area after the specific bit included in the first tag information. And a tag information discriminating unit that makes the first tag information valid tag information when the second data of the predetermined area included in the second tag information match.

FIG. 1 is an explanatory diagram showing the RFID tag readers installed in a plurality of lanes according to the embodiment. FIG. 2 is an explanatory diagram showing a data structure of non-truncated tag information transmitted by the wireless tag. FIG. 3 is a block diagram showing the hardware configuration of the RFID tag reader. FIG. 4 is a block diagram showing the hardware configuration of the POS terminal. FIG. 5 is a functional block diagram showing a functional configuration of the wireless tag reading device. FIG. 6 is an explanatory diagram showing the data structure of the truncated tag information transmitted by the wireless tag that received the radio wave transmitted by the wireless tag reading device 1a. FIG. 7 is an explanatory diagram showing the data structure of the truncated tag information transmitted by the wireless tag that received the radio wave transmitted by the wireless tag reading device 1b. FIG. 8 is an explanatory diagram showing the data structure of the truncated tag information transmitted by the wireless tag that received the radio wave transmitted by the wireless tag reading device 1c. FIG. 9 is a flowchart showing a flow of control processing of the wireless tag reading device.

Hereinafter, a wireless tag reading device and a program according to embodiments will be described with reference to the drawings. In the embodiment, an RFID tag will be described as an example of a wireless tag. Further, the POS terminal will be described as an example of the sales data processing device. The present invention is not limited to the embodiments described below.

FIG. 1 is an explanatory diagram showing the RFID tag readers installed in a plurality of lanes according to the embodiment. A plurality of lanes 4 are provided close to each other (for example, at intervals of about 1 meter) in the settlement section of the store (in the example of FIG. 1, three lanes 4a, 4b, and 4c are provided). It is provided in close proximity). The lane 4 is a substantially rectangular parallelepiped base having a planar upper surface. The lane 4 includes the RFID tag reader 1, the antenna 23, and the POS terminal 5. The wireless tag reader 1 and the antenna 23 are electrically connected. Further, the wireless tag reader 1 and the POS terminal 5 are electrically connected.

The wireless tag reader 1 is installed below the upper surface. The antenna 23 is located at the position of the upper surface or is embedded close to the upper surface.

The customer places the product to be purchased, a basket containing the product to be purchased, or the like in the area surrounded by the antenna 23 on the upper surface of the lane 4. The wireless tag reader 1 transmits a radio wave including a command from the antenna 23. The radio wave reaches only the wireless tag attached to the product placed on the own lane 4.

The wireless tag has an antenna and a storage unit, and when the antenna receives a radio wave transmitted from the wireless tag reading device 1, power is generated, and the generated power causes the tag information stored in the storage unit to be transmitted. Is. The wireless tag has an adhesive surface and is attached to a product by adhesive force. The wireless tag may be attached to the product with a band or the like.

Here, the tag information stored in the wireless tag will be described. FIG. 2 is an explanatory diagram showing a data structure of tag information received by the wireless tag reading device. As shown in FIG. 2, the tag information TN is composed of size TN1, header TN2, company name TN3, product code TN4, serial NoTN5, and CRC (Cyclic Redundancy Check) TN6. The size TN1 is data representing the size of the tag information, and is composed of, for example, 32 bits (0th bit to 31st bit). The header TN2 is a tag information header, and is composed of, for example, 14 bits (32nd to 45th bits). The company name TN3 is the company name of the company that manufactures or manufactures the product to which the RFID tag is attached, and is composed of, for example, 40 bits (46th bit to 65th bit). The merchandise code TN4 is merchandise item identification information that identifies a merchandise item to which a wireless tag is attached (for example, XX milk), and is configured by, for example, 24 bits (66th bit to 89th bit). The serial NoTN5 is individual product identification information for uniquely identifying a product as an individual product, and is composed of, for example, 38 bits (90th bit to 123rd bit). The CRCTN6 functions as a check digit for checking whether the tag information is correctly received, and is composed of, for example, 4 bits (124th bit to 127th bit). Note that the product code TN4 or the serial NoTN5, for example, may include the product name and price of the product.

Data composed of the header TN2, the company name TN3, the product code TN4, the serial NoTN5, and the CRCTN6 will be hereinafter referred to as an ID.

The wireless tag that has received the radio wave transmits the tag information stored in the wireless tag to the antenna 23 in response to the command. The wireless tag reading device 1 receives the tag information transmitted from the wireless tag via the antenna 23. The wireless tag reader 1 also stores the received tag information. The wireless tag reading device 1 transmits the stored tag information to the POS terminal 5.

The wireless tag reader 1 receives all the data stored in the wireless tag as the first tag information. Further, when the radio tag reading device 1 adds the information designating the bit at the specific position of the tag information when transmitting the radio wave, the radio tag deletes (truncates) the data before the designated bit, The data composed of all the bits after the designated bit is transmitted as the second tag information. Truncate means deleting information.

In the RFID tag readers 1 installed in a plurality of adjacent lanes 4, at least adjacent RFID tag readers 1 specify different positions as specific bits. In all the RFID tag readers 1, different positions may be designated as specific bits. Further, the same position may be designated as the specific bit if the RFID tags are not adjacent to each other. For example, in FIG. 1, the RFID tag reader 1a and the RFID tag reader 1c may specify the same position as a specific bit, and the RFID tag reader 1b may specify a different position as a specific bit. In the embodiment, the RFID tag reader 1a, the RFID tag reader 1b, and the RFID tag reader 1c specify different bit positions.

The POS terminal 5 executes sales registration processing and settlement processing for the products to be sold. The sales registration process is the product information (product name, price, etc.) of the product from the product master 542 (see FIG. 4) based on the product code included in the tag information received by the POS terminal 5 from the RFID tag reader 1. ) A process of reading and displaying the read product information of the product and storing the product information in the product information unit 531 (see FIG. 4). The settlement process is based on the product information stored in the product information unit 531 in accordance with the sales registration process, and displays the total amount and tax amount related to the transaction and calculates and displays the change based on the deposit received from the customer. Processes, etc. are processes for issuing receipts on which product information and payment information (total amount, deposit amount, change amount, etc.) are printed. The information that combines the product information and the payment information is called sales information.

Next, the hardware configuration of the wireless tag reading device 1 will be described. FIG. 3 is a block diagram showing the hardware configuration of the RFID tag reader 1. As shown in FIG. 3, the RFID tag reader 1 includes a CPU (Central Processing Unit) 11, a ROM (Read Only Memory) 12, a RAM (Random Access Memory) 13, a memory unit 14, and the like. The CPU 11 is the control subject. The ROM 12 stores various programs. The RAM 13 develops programs and various data. The memory unit 14 stores various programs. The CPU 11, ROM 12, RAM 13, and memory unit 14 are connected to each other via a bus 15. The CPU 11, the ROM 12, and the RAM 13 form the control unit 100. That is, the control unit 100 executes the control processing of the wireless tag reading device 1 described later by the CPU 11 operating according to the control program stored in the ROM 12 or the memory unit 14 and expanded in the RAM 13.

The RAM 13 includes a first tag information storage unit 131, a second tag information storage unit 132, and a tag information storage unit 133. The first tag information storage unit 131 stores the first tag information. The second tag information storage unit 132 stores the second tag information. The tag information storage unit 133 stores the valid first tag information described later.

The memory unit 14 is composed of an HDD (Hard Disc Drive), a flash memory, or the like, and maintains the stored contents even when the power is cut off. The memory unit 14 includes a control program unit 141. The control program unit 141 stores a control program for controlling the RFID tag reader 1.

The control unit 100 connects the operation unit 21, the display unit 22, the antenna 23, and the product placement sensor 24 via the bus 15 and the controller 16. The operation unit 21 is a keyboard including a transmission key 211 for transmitting the tag information stored in the tag information storage unit 133 to the POS terminal 5. The display unit 22 displays information. The product placement sensor 24 is a sensor that detects and outputs the placement of a product when the product is placed in the antenna 23.

The control unit 100 is also connected to the communication interface (I/F) 25 via the bus 15. The communication interface 25 is connected to the POS terminal 5 installed in the same lane 4 so that information can be transmitted.

Next, the hardware of the POS terminal 5 will be described. FIG. 4 is a block diagram showing the hardware configuration of the POS terminal 5. As shown in FIG. 2, the POS terminal 5 includes a CPU 51, a ROM 52, a RAM 53, a memory unit 54 and the like. The CPU 51 is the control subject. The ROM 52 stores various programs. The RAM 53 develops programs and various data. The memory unit 54 stores various programs. The CPU 51, ROM 52, RAM 53, and memory unit 54 are connected to each other via a bus 55. The CPU 51, the ROM 52, and the RAM 53 form the control unit 500. That is, the control unit 500 executes the control processing of the POS terminal 5 described later by the CPU 51 operating in accordance with the control program stored in the ROM 52 or the memory unit 54 and expanded in the RAM 53.

The RAM 53 includes a product information section 531. The product information unit 531 stores product information (product name, product price, etc.) of the product for which the POS terminal 5 has performed the sales registration process.

The memory unit 54 includes an HDD, a flash memory, and the like, and retains the stored contents even when the power is cut off. The memory unit 54 includes a control program unit 541 and a product master 542. The control program unit 541 stores a control program for controlling the POS terminal 5. The product master 542 stores the product name, unit price, and the like of the product sold in the store in association with the product code that identifies the product.

The control unit 500 connects the operation unit 61, the clerk display unit 62, the customer display unit 63, the printer 64, and the card reader 65 via the bus 55 and the controller 56. The operation unit 61 is a keyboard. The clerk display unit 62 displays information such as product information and payment information to the clerk. The customer display unit 63 displays information such as product information and payment information to the customer. The printer 64 issues a receipt on which product information, payment information, etc. are printed. The card reader 65 reads card information such as a credit card.

The control unit 500 is also connected to a communication interface (I/F) 65 via the bus 55. The communication interface 66 is connected to the RFID tag reader 1 installed in the same lane 4 and the POS terminal 5 in another lane so that information can be transmitted and received.

The functional configuration of the RFID tag reader 1 will be described below. FIG. 5 is a functional block diagram showing a functional configuration of the wireless tag reading device 1. As shown in FIG. 5, the control unit 100 of the RFID tag reading device 1 is stored in the control program unit 141 and follows the control program expanded in the RAM 13, so that the first transmission unit 101, the first storage unit 102, and the first storage unit 102. The second transmission unit 103, the second storage unit 104, the tag information determination unit 105, the third transmission unit 106, and the designation unit 107 function.

The first transmitter 101 transmits the radio wave without specifying the bit position. When the first transmitting unit 101 transmits a radio wave without specifying a bit position, the radio tag that has received the radio wave receives the first tag information (that is, the size TN1, the header TN2) that is all the stored tag information. , Company name TN3, product code TN4, serial NoTN5, CRCTN6). That is, the wireless tag transmits the stored tag information without truncating it. The ID (first data in a predetermined area) of the first tag information transmitted from the wireless tag responding to the radio wave transmitted from the wireless tag reading device 1a is predetermined in the 33rd to 123rd bits. .. Further, the ID (first data in a predetermined area) of the first tag information transmitted from the wireless tag in response to the radio wave transmitted from the wireless tag reading device 1b is predetermined in the 34th to 123rd bits. .. Further, the ID (first data in a predetermined area) of the first tag information transmitted from the wireless tag responding to the radio wave transmitted from the wireless tag reading device 1c is predetermined in the 35th to 123th bits. ..

The first storage unit 102 stores the non-truncated first tag information received from the wireless tag in the first tag information storage unit 131. In this case, the first storage unit 102 of the RFID tag reading device 1a is placed on the lane 4b or the lane 4c in addition to the first tag information received from the RFID tag attached to the product placed on the lane 4a. The first tag information received from the wireless tag attached to the product may be received. The first storage unit 102 of the RFID tag reader 1b is placed on the lane 4a or 4c in addition to the first tag information received from the RFID tag attached to the product placed on the lane 4b. The first tag information received from the wireless tag attached to the product may be received. The first storage unit 102 of the RFID tag reader 1c is placed on the lane 4a or 4b in addition to the first tag information received from the RFID tag attached to the product placed on the lane 4c. The first tag information received from the wireless tag attached to the product may be received.

The second transmitter 103 transmits a radio wave with a designated bit position. When the second transmitting unit 103 transmits a radio wave with a designated bit position, the radio tag that has received this radio wave has all of the stored tag information from the 0th bit including the designated bit to the designated bit. The bit information is deleted, and the information from the bit next to the designated bit to the last bit is transmitted as the second tag information.

This will be described in detail with reference to FIGS. 6, 7, and 8. FIG. 6 is an explanatory diagram showing a data configuration of the truncated second tag information transmitted by the wireless tag that receives the radio wave transmitted by the wireless tag reading device 1a. As shown in FIG. 6, the second transmitting unit 103 of the wireless tag reader 1a transmits a radio wave specifying the 32nd bit to the wireless tag. The 32nd bit is the first bit of the header. The wireless tag that has received this radio wave deletes (truncates) the 0th bit to the 32nd bit, and transmits the second tag information of the 33rd bit to the 127th bit. That is, the wireless tag has 13 bits (33th bit to 45th bit) excluding the 1st bit of the header TN2, 40 bits (46th bit to 65th bit) of the company name TN3, and 24 bits (66th bit of the product code TN4). The second tag information including the bit Nos. to 89th), the serial NoTN5 38 bits (90th to 123th bits), and the CRCTN6 4bits (124th to 127th bits) is transmitted. The ID (second data in the predetermined area) is the 33rd to 123rd bits.

FIG. 7 is an explanatory diagram showing the data structure of the truncated tag information transmitted by the wireless tag that received the radio wave transmitted by the wireless tag reading device 1b. As shown in FIG. 7, in the embodiment, the second transmitting unit 103 of the wireless tag reading device 1b transmits a radio wave specifying the 33rd bit to the wireless tag. The 33rd bit is the second bit of the header. The radio tag that has received this radio wave deletes (truncates) the 0th bit to the 33rd bit, and transmits the second tag information of the 34th bit to the 127th bit. That is, the wireless tag includes 12 bits (34th to 45th bits) excluding the 1st and 2nd bits of the header TN2, 40 bits (46th to 65th bits) of the company name TN3, and 24 of the product code TN4. The second tag information composed of bits (66th to 89th bits), 38 bits (90th to 123rd bits) of serial NoTN5, and 4 bits (124th to 127th bits) of CRCTN6 is transmitted. .. The ID (second data in the predetermined area) is the 34th to 123rd bits.

FIG. 8 is an explanatory diagram showing the data structure of the truncated tag information transmitted by the wireless tag that received the radio wave transmitted by the wireless tag reading device 1c. As shown in FIG. 8, in the embodiment, the second transmitting unit 103 of the wireless tag reading device 1c transmits a radio wave specifying the 34th bit to the wireless tag. The 34th bit is the third bit of the header. The wireless tag that has received this radio wave deletes (truncates) the 0th bit to the 34th bit, and transmits the second tag information of the 35th bit to the 127th bit. That is, the RFID tag has 11 bits (35th to 45th bits) excluding the 1st to 3rd bits of the header TN2, 40 bits (46th to 65th bits) of the company name TN3, and 24 of the product code TN4. The second tag information composed of bits (66th to 89th bits), 38 bits (90th to 123rd bits) of serial NoTN5, and 4bits (124th to 127th bits) of CRCTN6 is transmitted. .. The ID (second data in the predetermined area) is the 35th to 123rd bits.

The second storage unit 104 stores, in the second tag information storage unit 132, the second tag information in which the partial information received from the wireless tag has been truncated (that is, composed of all bits after a specific bit). To do. In this case, the second storage unit 104 of the RFID tag reading device 1a is placed on the lane 4b or the lane 4c in addition to the second tag information received from the RFID tag attached to the product placed on the lane 4a. The second tag information received from the wireless tag attached to the product may be received. The second storage unit 104 of the RFID tag reader 1b is placed on the lane 4a or 4c in addition to the second tag information received from the RFID tag attached to the product placed on the lane 4b. The second tag information received from the wireless tag attached to the product may be received. The second storage unit 104 of the RFID tag reading device 1c is placed on the lane 4a or the lane 4b in addition to the second tag information received from the RFID tag attached to the product placed on the lane 4c. The second tag information received from the wireless tag attached to the product may be received.

The tag information determination unit 105 compares the ID of the first tag information stored in the first storage unit 102 with the ID of the second tag information stored in the second storage unit 104 to determine the ID of the second tag information. It is determined whether or not there is an ID of the first tag information that matches. When the tag information determination unit 105 determines that the ID of the first tag information that matches the ID of the second tag information exists in the first storage unit 102, the tag information is stored as valid tag information. It is stored in the unit 133. When the tag information determination unit 105 determines that the ID of the first tag information that matches the ID of the second tag information does not exist in the first storage unit 102, the first tag information is not stored in the tag information storage unit 133. .. That is, the tag information determination unit 105 does not consider it as valid tag information.

The tag information determination unit 105 of the wireless tag reader 1a stores the ID (that is, the 33rd to 123rd bits) of the first tag information stored in the first storage unit 102 and the first ID stored in the second storage unit 104. 2 Compare the ID of the tag information.

The radio waves transmitted from the wireless tag reader 1a reach the wireless tags of the products placed on the lane 4a, but do not reach the wireless tags of the products placed on the lane 4b and the products placed on the lane 4c. However, the tag information (first tag information, second tag information) transmitted from the wireless tag of the product placed on the lane 4a may be received by the wireless tag reading device 1b or the wireless tag reading device 1c. .. The radio waves transmitted from the RFID tag reader 1b reach the RFID tags of the products placed on the lane 4b, but do not reach the RFID tags of the products placed on the lane 4a and the lane 4c. Absent. However, the tag information (first tag information, second tag information) transmitted from the RFID tag of the product placed on the lane 4b may be received by the RFID tag reader 1a or the RFID tag reader 1c. .. The radio waves transmitted from the RFID tag reader 1c reach the RFID tags of the products placed on the lane 4c, but do not reach the RFID tags of the products placed on the lane 4a and the lane 4b. Absent. However, the tag information (first tag information, second tag information) transmitted from the RFID tag of the product placed on the lane 4c may be received by the RFID tag reading device 1a or the RFID tag reading device 1b. ..

Then, the ID of the second tag information received from the wireless tag attached to the product placed on the lane 4a is the 33rd to 123rd bits. On the other hand, the ID of the second tag information received from the RFID tag attached to the product placed on the lane 4b is the 34th bit to the 123rd bit, and is attached to the product placed on the lane 4c. The ID of the second tag information received from the generated wireless tag is the 35th bit to the 123rd bit. Therefore, when the tag information determination unit 105 of the wireless tag reader 1a compares the ID of the first tag information stored in the first storage unit 102 with the ID of the second tag information stored in the second storage unit 104, The ID of the second tag information (33rd bit to 123rd bit) received from the RFID tag attached to the product placed on the lane 4a is the same as the ID of the first tag information (33rd bit to 123th bit). Since the numbers of digits match, they match the ID of the first tag information. However, the ID (34th bit to 123rd bit) of the second tag information received from the RFID tag attached to the product placed on the lane 4b is the ID of the first tag information (33rd bit to 123th bit). ) And the number of digits do not match, the ID does not match the ID of the first tag information. Similarly, the ID of the second tag information (35th to 123rd bits) received from the RFID tag attached to the product placed on the lane 4c is the ID of the first tag information (33rd to 123th bits). Since the number of digits does not match that of the eye), it does not match the ID of the first tag information.

Therefore, the tag information determination unit 105 of the wireless tag reading device 1a uses only the first tag information transmitted from the wireless tag attached to the product placed on the lane 4a as valid tag information, and the tag information storage unit 133. Remember. Further, the tag information determination unit 105 of the wireless tag reader 1a attaches the first tag information transmitted from the wireless tag attached to the product placed on the lane 4b and the item placed on the lane 4c. The first tag information transmitted from the wireless tag is not valid tag information and is not stored in the tag information storage unit 133.

Further, when the tag information determination unit 105 of the wireless tag reading device 1b compares the ID of the first tag information with the ID of the second tag information, the first received from the wireless tag attached to the product placed on the lane 4b. The ID of the second tag information (the 34th bit to the 123rd bit) has the same number of digits as the ID of the first tag information (the 34th bit to the 123rd bit), and therefore matches the ID of the first tag information. However, the ID of the second tag information (33rd to 123rd bits) received from the RFID tag attached to the product placed on the lane 4a is the ID of the first tag information (34th to 123rd bits). ) And the number of digits do not match, the ID does not match the ID of the first tag information. Similarly, the ID of the second tag information (35th bit to 123rd bit) received from the RFID tag attached to the product placed on the lane 4c is the ID of the first tag information (34th bit to 123th bit). Since the number of digits does not match that of the eye), it does not match the ID of the first tag information.

Therefore, the tag information determination unit 105 in the RFID tag reading device 1b in the lane 4b uses only the first tag information transmitted from the RFID tags attached to the products placed in the lane 4b as valid tag information. It is stored in the storage unit 133. Further, the tag information determination unit 105 of the wireless tag reader 1b attaches the first tag information transmitted from the wireless tag attached to the product placed on the lane 4a and the item placed on the lane 4c. The first tag information transmitted from the wireless tag is not valid tag information and is not stored in the tag information storage unit 133.

Further, when the tag information determination unit 105 of the wireless tag reading device 1c compares the ID of the first tag information with the ID of the second tag information, the first received from the wireless tag attached to the product placed on the lane 4c. The ID of the second tag information (the 35th bit to the 123rd bit) has the same number of digits as the ID of the first tag information (the 35th bit to the 123rd bit), and therefore matches the ID of the first tag information. However, the ID (the 33rd bit to the 123rd bit) of the second tag information received from the RFID tag attached to the product placed on the lane 4a is the ID of the first tag information (the 35th bit to the 123rd bit). ) And the number of digits do not match, the ID does not match the ID of the first tag information. Similarly, the ID of the second tag information (34th bit to 123rd bit) received from the RFID tag attached to the product placed on the lane 4b is the ID of the first tag information (35th bit to 123th bit). Since the number of digits does not match that of the eye), it does not match the ID of the first tag information.

Therefore, the tag information determination unit 105 in the RFID tag reader 1c in the lane 4c uses only the first tag information transmitted from the RFID tags attached to the products placed in the lane 4c as valid tag information. It is stored in the storage unit 133. In addition, the tag information determination unit 105 of the wireless tag reader 1c attaches the first tag information transmitted from the wireless tag attached to the product placed on the lane 4a and the item placed on the lane 4b. The first tag information transmitted from the wireless tag is not valid tag information and is not stored in the tag information storage unit 133.

The third transmission unit 106 transmits the first tag information stored in the tag information storage unit 133 to the POS terminal 5. The POS terminal 5 executes the sales registration processing and the payment processing of the product based on the first tag information transmitted by the third transmission unit 106.

The designation unit 107 has a function of designating a bit at a specific position. The designation unit 107 individually designates a bit at a specific position in each RFID tag reader 1. The designation unit 107 designates specific bits at different positions in the adjacent RFID tag reading devices 1.

Next, the control of the wireless tag reading device 1 will be described. FIG. 9 is a flowchart showing a flow of control processing of the wireless tag reading device 1. As shown in FIG. 9, the control unit 100 of the RFID tag reading device 1 determines whether the product placement sensor 24 detects a product placed on the lane 4 (S11). When the product placement sensor 24 waits until the product placement sensor 24 detects the product (No in S11) and determines that the product placement sensor 24 detects the product (Yes in S11), the first transmission unit 101 causes the antenna 23 to operate. Then, the radio wave is transmitted without specifying the bit position (S12).

Next, the control unit 100 determines whether the first tag information in response to the radio wave transmitted in S12 has been received (S13). When it is determined that the first tag information in response to the radio wave transmitted in S12 is received (Yes in S13), the control unit 100 is stored in the CRC unit TN6. It is determined whether the check data present and the check data calculated by weighting based on the information stored in the 0th to 123rd bits match (S14). If they do not match (No in S14), the first tag information is discarded (S17). Then, the control unit 100 returns to S11. When it is determined that the check data stored in the CRC unit TN6 and the check data calculated by weighting based on the information stored in the 0th bit to the 123rd bit match (S14 Yes), the first storage unit 102 stores the received first tag information in the first tag information storage unit 131 (S15).

Next, the control unit 100 determines whether a predetermined time has passed (S16). The predetermined time in S16 is a time sufficient to receive the first tag information from the wireless tags attached to all the products after transmitting the radio wave in S12. When it is determined that the predetermined time has not elapsed (No in S16), the control unit 100 returns to S13 and repeats the determination and processing of S13 to S15 and S17. When it is determined that the predetermined time has elapsed (Yes in S16), the designating unit 107 designates a specific position from 0 bits to 127 bits (S21). Since the wireless tag reading device 1a is set in advance to specify the 32nd bit, the specifying unit 107 of the wireless tag reading device 1a specifies the 32nd bit in S21. Since the wireless tag reading device 1b is set in advance to specify the 33rd bit, the specifying unit 107 of the wireless tag reading device 1b specifies the 33rd bit in S21. Since the wireless tag reading device 1c is set in advance to specify the 34th bit, the specifying unit 107 of the wireless tag reading device 1c specifies the 34th bit in S21. Then, the second transmitting unit 103 transmits a radio wave including the bit information of the specific position designated by the designating unit 107 from the antenna 23 (S22).

Next, the control unit 100 determines whether or not the second tag information in response to the radio wave transmitted in S22 has been received (S23). When it is determined that the second tag information in response to the radio wave transmitted in S22 is received (Yes in S23), the second storage unit 104 waits until the second tag is received. The information is stored in the second tag information storage unit 132 (S24).

Next, the tag information determination unit 105 compares the ID included in the first tag information stored in the first tag information storage unit 131 with the ID included in the second tag information stored in the second tag information storage unit 132. Yes (S25). Then, the tag information determination unit 105 determines whether the ID included in the first tag information and the ID included in the second tag information match (S26). That is, the tag information determination unit 105 matches the ID included in the first tag information stored in the first tag information storage unit 131 with the ID included in the second tag information stored in the second tag information storage unit 132. It is determined whether there is the first tag information having the ID (S26). When it is determined that the first tag information having the ID that matches the ID included in the second tag information stored in the second tag information storage unit 132 is stored in the first tag information storage unit 131 (S26: Yes), the control unit 100 stores the first tag information in the tag information storage unit 133 as valid tag information (S27).

Next, the control unit 100 determines whether a predetermined time has passed (S28). The predetermined time in S28 is a time sufficient to receive the second tag information from the wireless tags attached to all the products after transmitting the radio wave in S22. When it is determined that the predetermined time has not elapsed (No in S28), the control unit 100 returns to S23 and repeats the determination and processing of S23 to S27. When it is determined that the predetermined time has elapsed (Yes in S28), the control unit 100 determines whether the transmission key 211 has been operated (S29). When the transmission key 211 is operated (No in S29) and it is determined that the transmission key 211 is operated (Yes in S29), the third transmission unit 106 is stored in the tag information storage unit 133. The valid first tag information is transmitted to the POS terminal 5 (S30). Then, the control unit 100 returns to S11.

When it is determined in S26 that the first tag information having the ID that matches the ID included in the second tag information stored in the second tag information storage unit 132 is not stored in the first tag information storage unit 131. (No in S26), the control unit 100 does not store any first tag information in the tag information storage unit 133 (assuming that there is no valid first tag information corresponding to the second tag information). The processing after S28 is executed.

According to such an embodiment, the RFID tag reading device 1 (for example, the RFID tag reading device 1a) becomes a product placed in a lane (for example, lane 4b or lane 4c) other than its own lane (for example, lane 4a). Even when the first tag information or the second tag information is received from the attached wireless tag, only the tag information of the product in the own lane is regarded as valid tag information. Therefore, misreading does not occur even if adjacent lanes are close to each other.

Although the embodiment of the present invention has been described above, this embodiment is presented as an example and is not intended to limit the scope of the invention. This embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the scope equivalent thereto.

For example, in the embodiment, the RFID tag reader 1 and the POS terminal 5 are described as separate devices. However, the present invention is not limited to this, and for example, a device having the function of the wireless tag reading device 1 and the function of the POS terminal 5 may be used as the wireless tag reading device.

Further, in the embodiment, the data composed of the header TN2, the company name TN3, the product code TN4, the serial NoTN5, and the CRCTN6 is used as the ID. However, the present invention is not limited to this, and the item of data as an ID may be set arbitrarily.

The program executed by the RFID tag reader 1 of the embodiment is a file in an installable format or an executable format, such as a CD-ROM, a flexible disk (FD), a CD-R, a DVD (Digital Versatile Disk), etc. Provided on a computer-readable recording medium.

Further, the program executed by the RFID tag reader 1 of the embodiment may be stored in a computer connected to a network such as the Internet and provided by being downloaded via the network. Further, the program executed by the RFID tag reader 1 of the embodiment may be provided or distributed via a network such as the Internet.

Further, the program executed by the RFID tag reader 1 according to the embodiment may be incorporated in a ROM or the like in advance and provided.

1 RFID Tag Reader 4 Lane 5 POS Terminal 23 Antenna 100 Control Unit 101 First Transmission Unit 102 First Storage Unit 103 Second Transmission Unit 104 Second Storage Unit 105 Tag Information Judgment Unit 106 Third Transmission Unit 107 Designation Unit 131 First tag information storage unit 132 Second tag information storage unit 133 Tag information storage unit TN tag information

JP, 2007-321133, A

Claims (6)

A first storage unit that stores first tag information that is received from the wireless tag and that is composed of a plurality of bits and that is stored in the wireless tag;
A second storage unit that stores second tag information received from the wireless tag, the second tag information including all bits after a specific bit of the first tag information;
The first tag information is valid when the first data in the predetermined area after the specific bit included in the first tag information matches the second data in the predetermined area included in the second tag information. A tag information discriminating unit to be tag information,
An RFID tag reader equipped with. The predetermined area is header information that is a part of the first tag information and the second tag information, company name information, product identification information that identifies a product, and an item that uniquely identifies an item with the wireless tag. Including product specific information,
The RFID tag reader according to claim 1. The specific bit is bit data indicating a bit at a specific position of the header included in the first tag information.
The RFID tag reader according to claim 2. The tag information discriminating unit is further provided with a transmitting unit for transmitting the valid first tag information to the sales data processing device,
The wireless tag reading device according to claim 1. Further comprising a designation unit for designating the bit at the specific position,
The RFID tag reader according to claim 3. A computer as a wireless tag reader,
A first storage unit that stores first tag information that is received from the wireless tag and that is composed of a plurality of bits and that is stored in the wireless tag;
A second storage unit that stores second tag information received from the wireless tag, the second tag information including all bits after a specific bit of the first tag information;
The first tag information is valid when the first data in the predetermined area after the specific bit included in the first tag information matches the second data in the predetermined area included in the second tag information. A tag information discriminating unit to be tag information,
A program to make it work.

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